CTRON-TRANSLATION-MIB device MIB details by Enterasys Networks Inc
CTRON-TRANSLATION-MIB file content
The SNMP protocol is used to for conveying information and commands between agents and managing entities. SNMP uses the User Datagram Protocol (UDP) as the transport protocol for passing data between managers and agents. The reasons for using UDP for SNMP are, firstly it has low overheads in comparison to TCP, which uses a 3-way hand shake for connection. Secondly, in congested networks, SNMP over TCP is a bad idea because TCP in order to maintain reliability will flood the network with retransmissions.
Management information (MIB) is represented as a collection of managed objects. These objects together form a virtual information base called MIB. An agent may implement many MIBs, but all agents must implement a particular MIB called MIB-II [16]. This standard defines variables for things such as interface statistics (interface speeds, MTU, octets sent, octets received, etc.) as well as various other things pertaining to the system itself (system location, system contact, etc.). The main goal of MIB-II is to provide general TCP/IP management information.
Use ActiveXperts Network Monitor 2024 to import vendor-specific MIB files, inclusing CTRON-TRANSLATION-MIB.
Vendor: | Enterasys Networks Inc |
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Mib: | CTRON-TRANSLATION-MIB [download] [view objects] |
Tool: | ActiveXperts Network Monitor 2024 [download] (ships with advanced SNMP/MIB tools) |
CTRON-TRANSLATION-MIB DEFINITIONS ::= BEGIN -- ctron-translation-mib.txt -- Revision: 1.02.00 -- Part Number: -- Date: April 26, 1999 -- Cabletron Systems, Inc. -- 35 Industrial Way, P.O. Box 5005 -- Rochester, NH 03867-0505 -- (603) 332-9400 -- support@ctron.com -- -- This module will be extended, as required. -- -- Cabletron Systems reserves the right to make changes in -- specification and other information contained in this document -- without prior notice. The reader should consult Cabletron Systems -- to determine whether any such changes have been made. -- -- In no event shall Cabletron Systems be liable for any incidental, -- indirect, special, or consequential damages whatsoever (including -- but not limited to lost profits) arising out of or related to this -- document or the information contained in it, even if Cabletron -- Systems has been advised of, known, or should have known, the -- possibility of such damages. -- -- Cabletron grants vendors, end-users, and other interested parties -- a non-exclusive license to use this Specification in connection -- with the management of Cabletron products. -- Copyright August 94 Cabletron Systems -- IMPORTS OBJECT-TYPE FROM RFC-1212 DisplayString FROM RFC1213-MIB MacAddress FROM BRIDGE-MIB ctTranslation FROM CTRON-MIB-NAMES; -- DisplayString ::= OCTET STRING -- This data type is used to model textual information taken from -- the NVT ASCII character set. By convention, objects with this -- syntax, unless explicitly stated, are declared as having: -- -- SIZE (0..255) -- MacAddress ::= OCTET STRING (SIZE (6)) a 6 octet -- address in the -- "canonical" order ctTransFddiAtm OBJECT IDENTIFIER ::= { ctTranslation 1 } ctTransFddiEthernet OBJECT IDENTIFIER ::= { ctTranslation 2 } ctTransEthernetFddi OBJECT IDENTIFIER ::= { ctTranslation 3 } ctTransRifDb OBJECT IDENTIFIER ::= { ctTranslation 4 } ctTransBcastX OBJECT IDENTIFIER ::= { ctTranslation 5 } ctTransIbmLlc OBJECT IDENTIFIER ::= { ctTranslation 6 } ctTransSr OBJECT IDENTIFIER ::= { ctTranslation 7 } ctTransNovellCfg OBJECT IDENTIFIER ::= { ctTranslation 8 } ctTransIPCfg OBJECT IDENTIFIER ::= { ctTranslation 9 } ctTransA2Cfg OBJECT IDENTIFIER ::= { ctTranslation 10 } ctTransOtherCfg OBJECT IDENTIFIER ::= { ctTranslation 11 } ctTranslfpsCfg OBJECT IDENTIFIER ::= { ctTranslation 12 } -- ============================================================================ -- FDDI/ATM Group -- -- controls IP fragmentation between FDDI and ATM. -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransFddiAtmMtu OBJECT-TYPE SYNTAX INTEGER { greater1518MTU(1), -- MTU greater than 1518 (1) (default) less1518MTU(2) -- MTU less than 1518 (2) } ACCESS read-write STATUS mandatory DESCRIPTION "When written with a (1), allows SNAP frames up to 4500 bytes in length to be received from the FNB and processed by the ATM SAR component. When this object is written with a (1), a value of (1) for the ctTransFddiAtmIPFrag object must be ignored. When written with a (2), discards any frames received on the FNB which are greater than 1518 bytes in length. A value of (2) must be ignored if the frame is IP and the ctTransFddiAtmIPFrag object is written with a (1)." DEFVAL { greater1518MTU } ::= { ctTransFddiAtm 1 } ctTransFddiAtmIPFrag OBJECT-TYPE SYNTAX INTEGER { enable(1), -- Enable IP Fragmentation disable(2) -- Disable IP Fragmentation } ACCESS read-write STATUS mandatory DESCRIPTION "When written with a (1), will fragment IP frames from FDDI to Ethernet before the frame is processed by the ATM SAR component. This object must be ignored when written with a (1) if the ctTransFddiAtmMtu object is written with a (1). When written with a (2), discards any frames received on the FNB which are greater than 1518 bytes in length. A value of (2) for this object must be ignored if the ctTransFddiAtmMtu object is written with a (1)." DEFVAL { disable } ::= { ctTransFddiAtm 2 } -- ============================================================================ -- FDDI/Ethernet Group -- -- controls frame Translation between FDDI and Ethernet. -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransFddiEthernetIPFrag OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables or disables IP fragmentation from FDDI to any/all Ethernet interfaces." ::= { ctTransFddiEthernet 1 } ctTransFddiSnapEthernetType OBJECT-TYPE SYNTAX INTEGER { ethernetII(1), ethernetSnap(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The desired frame type to be translated from FDDI to Ethernet. If set to ethernetII(1) all non-IPX frames will be translated to ethernetII. If set to ethernetSnap(2), all non-IPX frames will be translated to ethernet_snap." DEFVAL { ethernetII } ::= { ctTransFddiEthernet 2 } ctTransFddiEthernetAuto OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notSupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables or disables the 'Auto-Learn' Translation feature of FDDI to Ethernet frames for the objects below. If enabled, the device will automatically learn the frame type by source address from the Ethernet interfaces. If enabled, IPX FDDI frames destined to a learned source address will be translated to the appropriate frame type. If the Ethernet destination address has not been heard from, therefore the frame type used is unknown, the device default frame translation for that frame type will be used." ::= { ctTransFddiEthernet 3 } ctTransFddiEthernetSnapIPX OBJECT-TYPE SYNTAX INTEGER { ethernetII(1), ethernetSnap(2), ethernet802dot3(3), ethernet802dot3Raw(4) } ACCESS read-write STATUS mandatory DESCRIPTION "The desired translation of IPX FDDI SNAP frames to Ethernet." ::= { ctTransFddiEthernet 4 } ctTransFddiEthernet802dot2IPX OBJECT-TYPE SYNTAX INTEGER { ethernetII(1), ethernetSnap(2), ethernet802dot3(3), ethernet802dot3Raw(4) } ACCESS read-write STATUS mandatory DESCRIPTION "The desired translation of IPX FDDI 802.2 frames to Ethernet." ::= { ctTransFddiEthernet 5 } ctTransFddiEthernetMACIPX OBJECT-TYPE SYNTAX INTEGER { ethernetII(1), ethernetSnap(2), ethernet802dot3(3), ethernet802dot3Raw(4) } ACCESS read-write STATUS mandatory DESCRIPTION "The desired translation of IPX FDDI MAC frames to Ethernet." ::= { ctTransFddiEthernet 6 } -- ============================================================================ -- Ethernet/FDDI Group -- -- controls frame Translation between Ethernet and FDDI. -- Implementation of this group is optional. -- -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransEthernetFddiRAW OBJECT-TYPE SYNTAX INTEGER { fDDI802dot2(1), fDDISnap(2), fDDIMAC(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The desired translation of Ethernet802.3 'RAW' frames to FDDI. This is a device level object meaning Ethernet 'RAW' frames to any/all FDDI interfaces." ::= { ctTransEthernetFddi 1 } ctTransEthernetFddiPadVerify OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), not-supported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Selects 802.3 length verfication for Ethernet FDDI frame translation. If set to Enabled(1), the device consults the 802.3 length field to determine the amount of pad to removed regardless of frame size. This setting will cause the device to strip unnecessary pad in frames greater than 64 bytes. If set to Disabled(2), the default value, the 802.3 length field is only interpreted if the frame size is 64 bytes. For frames greater than 64 bytes, it is assumed that there is no 802.3 pad in the frame. If set to Not-Supported(3), the device does not support this feature and will only strip pad from ethernet frames that are 64 bytes in length." ::= { ctTransEthernetFddi 2 } -- ============================================================================ -- RIF database group. -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the entire -- group must be implemented -- -- ============================================================================ ctTransRifDbTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransRifDbEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table containing entries of RIF Database." ::= { ctTransRifDb 1 } ctTransRifDbEntry OBJECT-TYPE SYNTAX CtTransRifDbEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry for ctTransRifDbTable." INDEX { ctTransRifDbMacAddr } ::= { ctTransRifDbTable 1 } CtTransRifDbEntry ::= SEQUENCE { ctTransRifDbMacAddr MacAddress, ctTransRifDbSrcPort INTEGER, ctTransRifDbLength INTEGER, ctTransRifDbRIF DisplayString } ctTransRifDbMacAddr OBJECT-TYPE SYNTAX MacAddress ACCESS read-only STATUS mandatory DESCRIPTION "The Mac address of a source station in Cabletron cannonical format." ::= { ctTransRifDbEntry 1 } ctTransRifDbSrcPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the MIB-II interface that hardware address is learned from." ::= { ctTransRifDbEntry 2 } ctTransRifDbLength OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object returns the number of bytes of routing information associated with this entry." ::= { ctTransRifDbEntry 3 } ctTransRifDbRIF OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) ACCESS read-only STATUS mandatory DESCRIPTION "This returns the routing information associated with an entry." ::= { ctTransRifDbEntry 4 } ctTransRifDbCtrlTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransRifDbCtrlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table containing entries of objects to control RIF database." ::= { ctTransRifDb 2 } ctTransRifDbCtrlEntry OBJECT-TYPE SYNTAX CtTransRifDbCtrlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry for ctTransRifDbCtrlTable." INDEX { ctTransRifDbCtrlPort } ::= { ctTransRifDbCtrlTable 1 } CtTransRifDbCtrlEntry ::= SEQUENCE { ctTransRifDbCtrlPort INTEGER, ctTransRifDbWeightState INTEGER, ctTransRifDbCtrlType INTEGER, ctTransRifDbAgingTimer INTEGER } ctTransRifDbCtrlPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering control over the RIF cache." ::= { ctTransRifDbCtrlEntry 1 } ctTransRifDbWeightState OBJECT-TYPE SYNTAX INTEGER { notsupported(1), shortestpath(2), quickestpath(3), largestmtu(4), lastseen(5) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates the type of RIF to be retained in the RIF database. shortestPath (2) is the RIF with the least number of hops. The existing RIF will be replaced if the new RIF is shorter. quickestPath (3) is the 'first seen' RIF. largestMTU (4) is the path that supports the largest frame as indicated by the LF (largest frame bits) in the routing control field (RCF). lastSeen (5) is the 'most recently seen' RIF. The default value for this object is device specific." ::= { ctTransRifDbCtrlEntry 2 } ctTransRifDbCtrlType OBJECT-TYPE SYNTAX INTEGER { explorer(1), all(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Type of RIF to cache. When the explorer option (1) is selected the existing RIF may be replaced only if the received frame is an explorer. When the 'all' option (2) is selected the existing RIF may be replaced for any SR frame received with a valid RIF. Some devices will use this in conjunction with the ctTransRifDbWeightState option to determine which RIFs may be cached. The default for this object is product specific." ::= { ctTransRifDbCtrlEntry 3 } ctTransRifDbAgingTimer OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The timeout period in seconds for aging out dynamically learned RI Fs. The default for this object is product specific." ::= { ctTransRifDbCtrlEntry 4 } -- ============================================================================ -- Broadcast Conversion group. -- -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransBcastXTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransBcastXEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list describing the state of the broadcast conversion for each interface on this device. The user will specify two broadcast addresses (per interface), one for the media specific interface one for the cannonical format, that the translation state machine will provide conversion between. This conversion only acts upon the DA of the MAC header when the specified address matches the DA." ::= { ctTransBcastX 1 } ctTransBcastXEntry OBJECT-TYPE SYNTAX CtTransBcastXEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of objects pertaining to the state of broadcast conversion for each interface." INDEX { ctTransBcastXPort } ::= { ctTransBcastXTable 1 } CtTransBcastXEntry ::= SEQUENCE { ctTransBcastXPort INTEGER, ctTransBcastXMode INTEGER, ctTransBcastXMedia MacAddress, ctTransBcastXCanonical MacAddress } ctTransBcastXPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering broadcast conversion translation." ::= { ctTransBcastXEntry 1} ctTransBcastXMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether the ctTransBcastXMedia and ctTransBcastXCanonical objects pair are valid for this interface." ::= { ctTransBcastXEntry 2} ctTransBcastXMedia OBJECT-TYPE SYNTAX MacAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object is the media specific broadcast address that this interface will allow translation to/from. This conversion only acts upon the DA of the MAC header when the specified address matches the DA." ::= { ctTransBcastXEntry 3} ctTransBcastXCanonical OBJECT-TYPE SYNTAX MacAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object is the cannonical broadcast address that this interface will allow translation to/from. This conversion only acts upon the DA of the MAC header when the specified address matches the DA." ::= { ctTransBcastXEntry 4} -- =========================================================================== -- IBM LLC configuration group. -- -- Normally this group will only be implemented on devices with the -- ability to 'remember' the type of network the packet originated -- on. -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- =========================================================================== ctTransIbmLlcTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransIbmLlcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list describing the state of the IBM LLC translation for each interface on this device." ::= { ctTransIbmLlc 1 } ctTransIbmLlcEntry OBJECT-TYPE SYNTAX CtTransIbmLlcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of objects pertaining to the state of IBM LLC translation for each interface." INDEX { ctTransIbmLlcPort } ::= { ctTransIbmLlcTable 1 } CtTransIbmLlcEntry ::= SEQUENCE { ctTransIbmLlcPort INTEGER, ctTransIbmLlcNullMode INTEGER, ctTransIbmLlcSnaPathMode INTEGER, ctTransIbmLlcSnaMode INTEGER, ctTransIbmLlcNbMode INTEGER, ctTransIbmLlcLnmMode INTEGER, ctTransIbmLlcDscMode INTEGER, ctTransIbmLlcOtherMode INTEGER, ctTransIbmLlcOtherValue INTEGER } ctTransIbmLlcPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering IBM LLC translation." ::= { ctTransIbmLlcEntry 1} ctTransIbmLlcNullMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "IBM networks systems have a special translation called 'IBM LLC Encapsulation' which is used for translating IBM LLC based protocols between Token Ring and Ethernet Version 2.0 (DIXE) format. This translation does not apply when going between Token Ring and 802.3, since LLC SAPs are maintained. This translation allows connectivity between Token stations separated by an Ethernet segment in an internetwork environment. An Ethernet protocol type of 80 D5 is used to indicate IBM LLC protocol encapsulation. When enabled(1) all frames outbound on this token ring port and with an LSAP value of 00 (Null) and where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet. When disabled(2) the IBM LLC protocol field is untouched on these packets. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransIbmLlcEntry 2} ctTransIbmLlcSnaPathMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "IBM networks systems have a special translation called 'IBM LLC Encapsulation' which is used for translating IBM LLC based protocols between Token Ring and Ethernet Version 2.0 (DIXE) format. This translation does not apply when going between Token Ring and 802.3, since LLC SAPs are maintained. This translation allows connectivity between Token stations separated by an Ethernet segment in an internetwork environment. An Ethernet protocol type of 80 D5 is used to indicate IBM LLC protocol encapsulation. When enabled(1) all frames outbound on this token ring port and with an LSAP value of 04 (SNA path control) and where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet. When disabled(2) the IBM LLC protocol field is untouched on these packets. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransIbmLlcEntry 3} ctTransIbmLlcSnaMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "IBM networks systems have a special translation called 'IBM LLC Encapsulation' which is used for translating IBM LLC based protocols between Token Ring and Ethernet Version 2.0 (DIXE) format. This translation does not apply when going between Token Ring and 802.3, since LLC SAPs are maintained. This translation allows connectivity between Token stations separated by an Ethernet segment in an internetwork environment. An Ethernet protocol type of 80 D5 is used to indicate IBM LLC protocol encapsulation. When enabled(1) all frames outbound on this token ring port and with an LSAP value of 08 (SNA) and where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet. When disabled(2) the IBM LLC protocol field is untouched on these packets. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransIbmLlcEntry 4} ctTransIbmLlcNbMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "IBM networks systems have a special translation called 'IBM LLC Encapsulation' which is used for translating IBM LLC based protocols between Token Ring and Ethernet Version 2.0 (DIXE) format. This translation does not apply when going between Token Ring and 802.3, since LLC SAPs are maintained. This translation allows connectivity between Token stations separated by an Ethernet segment in an internetwork environment. An Ethernet protocol type of 80 D5 is used to indicate IBM LLC protocol encapsulation. When enabled(1) all frames outbound on this token ring port and with an LSAP value of F0 (NetBIOS) and where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet. When disabled(2) the IBM LLC protocol field is untouched on these packets. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransIbmLlcEntry 5} ctTransIbmLlcLnmMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "IBM networks systems have a special translation called 'IBM LLC Encapsulation' which is used for translating IBM LLC based protocols between Token Ring and Ethernet Version 2.0 (DIXE) format. This translation does not apply when going between Token Ring and 802.3, since LLC SAPs are maintained. This translation allows connectivity between Token stations separated by an Ethernet segment in an internetwork environment. An Ethernet protocol type of 80 D5 is used to indicate IBM LLC protocol encapsulation. When enabled(1) all frames outbound on this token ring port and with an LSAP value of F4 (LAN Network Manager) and where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet. When disabled(2) the IBM LLC protocol field is untouched on these packets. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransIbmLlcEntry 6} ctTransIbmLlcDscMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "IBM networks systems have a special translation called 'IBM LLC Encapsulation' which is used for translating IBM LLC based protocols between Token Ring and Ethernet Version 2.0 (DIXE) format. This translation does not apply when going between Token Ring and 802.3, since LLC SAPs are maintained. This translation allows connectivity between Token stations separated by an Ethernet segment in an internetwork environment. An Ethernet protocol type of 80 D5 is used to indicate IBM LLC protocol encapsulation. When enabled(1) all frames outbound on this token ring port and with an LSAP value of FC (Discovery) will and where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet. When disabled(2) the IBM LLC protocol field is untouched on these packets. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransIbmLlcEntry 7} ctTransIbmLlcOtherMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "IBM networks systems have a special translation called 'IBM LLC Encapsulation' which is used for translating IBM LLC based protocols between Token Ring and Ethernet Version 2.0 (DIXE) format. This translation does not apply when going between Token Ring and 802.3, since LLC SAPs are maintained. This translation allows connectivity between Token stations separated by an Ethernet segment in an internetwork environment. An Ethernet protocol type of 80 D5 is used to indicate IBM LLC protocol encapsulation. When enabled(1) all frames meeting the following criteria: - outbound on this token ring port - with an LSAP value matching that found in ctTransIbmLlcOtherValue - where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet. When disabled(2) the IBM LLC protocol field is untouched on these packets. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransIbmLlcEntry 8} ctTransIbmLlcOtherValue OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "This object allows the user to select an IBM LLC LSAP value not specified above. When ctTransIbmLlcOtherMode is enabled all frames outbound on this token ring port and providing a match between this value and the outbound packet's LSAP value and where the packet originated on an ethernet network will have the IBM LLC protocol field of five bytes stripped from the packet." ::= { ctTransIbmLlcEntry 9} -- ============================================================================ -- Source Route group. -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, -- the entire group must be implemented -- -- ============================================================================ ctTransSrTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransSrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of entries describing the source route configuration managed objects." ::= { ctTransSr 1 } ctTransSrEntry OBJECT-TYPE SYNTAX CtTransSrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of objects to allow the configuration of source route translation information." INDEX { ctTransSrPort } ::= { ctTransSrTable 1 } CtTransSrEntry ::= SEQUENCE { ctTransSrPort INTEGER, ctTransSrIfMode INTEGER, ctTransSrExpMode INTEGER, ctTransSrIP INTEGER, ctTransSrIPX INTEGER, ctTransSrNetBIOS INTEGER, ctTransSrSNA INTEGER, ctTransSrOther INTEGER, ctTransSRLocalSegment INTEGER, ctTransSrSRLF INTEGER, ctTransSRAutoRingNumberDetect INTEGER } ctTransSrPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number for which this entry is administering source route configuration management." ::= { ctTransSrEntry 1 } ctTransSrIfMode OBJECT-TYPE SYNTAX INTEGER { tp(1), sr(2), srt(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the types of frames (sr,tp or both) supported by endstations attached to this interface. This information is used by the device to determine if sr/tp translation is required. Default is product specific. If tp (1) is selected the RIF cacheing mechanism for this port will be disabled. That is, the RIF cache database will be emptied and no RIFs will be learned into the database or attached to outbound packets for this port. If sr (2) or srt (3) is selected for this object then the RIFs will be learned into the database according to the rules defined in the object ctTransRifDbWeightState and attached as necessary to outbound packets." ::= { ctTransSrEntry 2 } ctTransSrExpMode OBJECT-TYPE SYNTAX INTEGER { notsupported(1), are(2), ste(3), inboundtype(4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object selects the type of explorer frame the SR or SRT interface will use, if and when an explorer frame is required. This object is only applicable when ctTransSrIfMode is set to sr (2) or srt (3). The requirements will depend on the device being managed. The inboundtype option (4) is supported only on those devices with the ability to 'remember' the original state of the arriving explorer packet. When set for this option the device will configure all outbound explorer frames for whichever type of explorer (ARE or STE) it arrived as. The default value for this object is product specific. A write of notsupported (1) will have no affect." ::= { ctTransSrEntry 3 } ctTransSrIP OBJECT-TYPE SYNTAX INTEGER { tp(1), sr(2), auto(3), notsupported(4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object determines how the sr/tp translation of IP frames of type 'broadcast', 'destination unknown', or 'destination known but IP not previously seen for this end station' should be translated. This object is only applicable for SRT interfaces. If tp (1) is selected, the frame is forwarded out the SRT interface as a transparent frame. If sr (2) is selected, the frame is forwarded out the srt interface as a source route frame. If this end station has never been heard from before an explorer will be launched. Which explorer frame (are or ste) is dependent on the object ctTransSrExplorerMode defined above. If auto (3) is selected, the frame is forwarded out the srt interface as both a transparent frame and as a source route frame. If not supported (4) is selected then the sr/tp translation of these types of IP frames will be based on the configuration of the ctTransSrOther managed object. The default value is product specific." ::= { ctTransSrEntry 4 } ctTransSrIPX OBJECT-TYPE SYNTAX INTEGER { tp(1), sr(2), auto(3), notsupported(4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object determines how the sr/tp translation of IPX frames of type `broadcast`, `destination unknown`, or `destination known but IPX not previously seen for this end station` should be translated. This object is only applicable for SRT interfaces. If tp (1) is selected, the frame is forwarded out the SRT interface as a transparent frame. If sr (2) is selected, the frame is forwarded out the SRT interface as a source route frame. If this end station has never been heard from before an explorer will be launched. Which explorer frame (are or ste) is dependent on the object ctTransSrExplorerMode defined above. If auto (3) is selected, the frame is forwarded out the SRT interface as both a transparent frame and as a source route frame. If not supported (4) is selected then the sr/tp translation of these types of IPX frames will be based on the configuration of the ctTransSrOther managed object. The default value is product specific." ::= { ctTransSrEntry 5 } ctTransSrNetBIOS OBJECT-TYPE SYNTAX INTEGER { tp(1), sr(2), auto(3), notsupported(4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object determines how the sr/tp translation of NetBIOS frames of type `broadcast`, `destination unknown`, or `destination known but NetBIOS not previously seen for this end station` should be translated. This object is only applicable for SRT interfaces. If tp (1) is selected, the frame is forwarded out the SRT interface as a transparent frame. If sr (2) is selected, the frame is forwarded out the SRT interface as a source route frame. If this end station has never been heard from before an explorer will be launched. Which explorer frame (ARE or STE) is dependent on the object ctTransSrExplorerMode defined above. If auto (3) is selected, the frame is forwarded out the SRT interface as both a transparent frame and as a source route frame. If not supported (4) is selected then the sr/tp translation of these types of NetBIOS frames will be based on the configuration of the ctTransSrOther managed object. The default value is product specific." ::= { ctTransSrEntry 6 } ctTransSrSNA OBJECT-TYPE SYNTAX INTEGER { tp(1), sr(2), auto(3), notsupported(4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object determines how the sr/tp translation of SNA frames of type 'broadcast', 'destination unknown', or 'destination known but SNA not previously seen for this end station' should be translated. This object is only applicable for SRT interfaces. If tp (1) is selected, the frame is forwarded out the SRT interface as a transparent frame. If sr (2) is selected, the frame is forwarded out the SRT interface as a source route frame. If this end station has never been heard from before an explorer will be launched. Which explorer frame (ARE or STE) is dependent on the object ctTransSrExplorerMode defined above. If auto (3) is selected, the frame is forwarded out the SRT interface as both a transparent frame and as a source route frame. If not supported (4) is selected then the sr/tp translation of these types of SNA frames will be based on the configuration of the ctTransSrOther managed object. The default value is product specific." ::= { ctTransSrEntry 7 } ctTransSrOther OBJECT-TYPE SYNTAX INTEGER { tp(1), sr(2), auto(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object determines how the sr/tp translation of all 'other protocols' is handled. 'other protocols' includes any protocol not mentioned above (i.e. IP,IPX,NetBIOS, or SNA) or any of those mentioned above with the 'not supported' option selected. This object applies to any 'other protocol' frame of type 'broadcast', 'destination unknown', or 'destination known but 'other protocol' not previously seen for this end station'. This object is only applicable for SRT interfaces. If tp (1) is selected, the frame is forwarded out the SRT interface as a transparent frame. If sr (2) is selected, the frame is forwarded out the SRT interface as a source route frame. If this end station has never been heard from before an explorer will be launched. Which explorer frame (ARE or STE) is dependent on the object ctTransSrExplorerMode defined above. If auto (3) is selected, the frame is forwarded out the SRT interface as both a transparent frame and as a source route frame. The default value is product specific." ::= { ctTransSrEntry 8 } ctTransSRLocalSegment OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The segment (ring) number that uniquely identifies the segment to which this interface is connected. Current source routing protocols limit this value to the range: 0 through 4095. (The value 0 is used by some management applications for special test cases.) A value of 65535 signifies that no segment number is assigned for this interface. The default value is device dependent." ::= { ctTransSrEntry 9 } ctTransSrSRLF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum size of the INFO field (LLC and above) that this interface can send/receive. It does not include any MAC level (framing) octets. The value of this object is used by this device to determine whether a modification of the LargestFrame (LF) field of the Routing Control field of the Routing Information Field is necessary. 64 valid values are defined by the IEEE 802.5M SRT Addendum: 516, 635, 754, 873, 993, 1112, 1231, 1350, 1470, 1542, 1615, 1688, 1761, 1833, 1906, 1979, 2052, 2345, 2638, 2932, 3225, 3518, 3812, 4105, 4399, 4865, 5331, 5798, 6264, 6730, 7197, 7663, 8130, 8539, 8949, 9358, 9768, 10178, 10587, 10997, 11407, 12199, 12992, 13785, 14578, 15370, 16163, 16956, 17749, 20730, 23711, 26693, 29674, 32655, 35637, 38618, 41600, 44591, 47583, 50575, 53567, 56559, 59551, and 65535." ::= { ctTransSrEntry 10 } ctTransSRAutoRingNumberDetect OBJECT-TYPE SYNTAX INTEGER { notsupported(1), enable(2), disable(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object enables an interface to automatically detect the source route ring number of the attached ring segment. When enabled, the interface wil automatically each time at open, configure its ring number with the supplied ring number from the RPS, if present on the ring. Otherwise, a default value is used when the interface opens." ::= { ctTransSrEntry 11 } -- ============================================================================ -- Novell Configuration group. -- -- Novell translation is typically used on devices with at least -- one token ring interface. -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransNovellCfgTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransNovellCfgEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list describing the enabled/disabled state of the Novell translation for each interface on this device." ::= { ctTransNovellCfg 1 } ctTransNovellCfgEntry OBJECT-TYPE SYNTAX CtTransNovellCfgEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of objects pertaining to the state of Novell translation for each interface." INDEX { ctTransNovellCfgPort } ::= { ctTransNovellCfgTable 1 } CtTransNovellCfgEntry ::= SEQUENCE { ctTransNovellCfgPort INTEGER, ctTransNovellCfgMode INTEGER, ctTransNovellGroupMode INTEGER } ctTransNovellCfgPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering Novell configuration management." ::= { ctTransNovellCfgEntry 1} ctTransNovellCfgMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), enabledType2(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable this object indicates whether the device will reverse the bit ordering of addresses in the Novell header on Novell packets. Enable Type 2 indicates the device will reverse the bit ordering of addresses for token ring to fddi and no translation for token ring to inb in the MAC layer. Disable will not bit reverse any address. The default of this object is enabled." ::= { ctTransNovellCfgEntry 2} ctTransNovellGroupMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), notsupported(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object allows the conversion of group and multicast addresses in the MAC DA of the IPX protocol format. Conversion is as follows: TR(C0 00 00 80 00 00) and Canonical (FF FF FF FF FF FF). TR(C0 00 40 00 00 00) and Canonical (09 00 07 FF FF FF). This object is only applicable if the state of ctTransNovellCfgMode is enabled. The default value for this object is product specific. A write of notsupported (3) will have no affect." ::= { ctTransNovellCfgEntry 3} -- ============================================================================ -- IP configuration group. -- -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransIPCfgTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransIPCfgEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list describing the enabled/disabled state of the IP translation for each interface on this device." ::= { ctTransIPCfg 1 } ctTransIPCfgEntry OBJECT-TYPE SYNTAX CtTransIPCfgEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of objects pertaining to the state of IP translation for each interface." INDEX { ctTransIPCfgPort } ::= { ctTransIPCfgTable 1 } CtTransIPCfgEntry ::= SEQUENCE { ctTransIPCfgPort INTEGER, ctTransIPDataCfgMode INTEGER, ctTransIPArpCfgMode INTEGER, ctTransIPRarpCfgMode INTEGER } ctTransIPCfgPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering IP configuration management." ::= { ctTransIPCfgEntry 1} ctTransIPDataCfgMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether the device will reverse the bit ordering of addresses in the information field of IP data packets received and then transmitted on this interface. The default of this object is enabled." ::= { ctTransIPCfgEntry 2} ctTransIPArpCfgMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether the device will reverse the bit ordering of addresses in the information field of ARP packets received and then transmitted on this interface. The default of this object is enabled." ::= { ctTransIPCfgEntry 3} ctTransIPRarpCfgMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether the device will reverse the bit ordering of addresses in the information field of RARP packets received and then transmitted on this interface. The default of this object is enabled." ::= { ctTransIPCfgEntry 4} -- ============================================================================ -- Appletalk2 configuration group. -- -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransA2CfgTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransA2CfgEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list describing the enabled/disabled state of the Appletalk2 translation for each interface on this device." ::= { ctTransA2Cfg 1 } ctTransA2CfgEntry OBJECT-TYPE SYNTAX CtTransA2CfgEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of objects pertaining to the state of Appletalk2 translation for each interface." INDEX { ctTransA2CfgPort } ::= { ctTransA2CfgTable 1 } CtTransA2CfgEntry ::= SEQUENCE { ctTransA2CfgPort INTEGER, ctTransA2DataCfgMode INTEGER, ctTransA2ArpCfgMode INTEGER, ctTransA2McastCfgMode INTEGER } ctTransA2CfgPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering Appletalk2 configuration management." ::= { ctTransA2CfgEntry 1} ctTransA2DataCfgMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether the device will reverse the bit ordering of addresses in the information field of Appletalk2 data packets received and then transmitted on this interface. The default of this object is enabled." ::= { ctTransA2CfgEntry 2} ctTransA2ArpCfgMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether the device will reverse the bit ordering of addresses in the information field of ARP packets received and then transmitted on this interface. The default of this object is enabled." ::= { ctTransA2CfgEntry 3} ctTransA2McastCfgMode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether the device will reverse the bit ordering of addresses in the information field of broadcast/multicast packets received and then transmitted on this interface. The default of this object is enabled." ::= { ctTransA2CfgEntry 4} -- ============================================================================ -- Other Configuration group -- -- Implementation of this group is optional. -- However, if any one element of the group is implemented, the -- entire group must be implemented -- ============================================================================ ctTransOtherTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransOtherEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list describing processing control for subgroups of LLC frames by SAP or SNAP type. This table allows the user to single out selected frame type groups for special handling by the processor (purely intended as a future upgrade path to add protocols that are currently not supported). This list only affects inbound frames and is indexed on a per port basis." ::= { ctTransOtherCfg 1 } ctTransOtherEntry OBJECT-TYPE SYNTAX CtTransOtherEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of objects pertaining to the processing of subgroups of LLC frames by SAP or SNAP type." INDEX { ctTransOtherPort } ::= { ctTransOtherTable 1 } CtTransOtherEntry ::= SEQUENCE { ctTransOtherPort INTEGER, ctTransOtherUnknownSap INTEGER, ctTransOtherUnknownSnap INTEGER, ctTransOtherSapDsap1Mode INTEGER, ctTransOtherSapDsap1Val INTEGER, ctTransOtherSapDsap2Mode INTEGER, ctTransOtherSapDsap2Val INTEGER, ctTransOtherSapDsap3Mode INTEGER, ctTransOtherSapDsap3Val INTEGER, ctTransOtherSnap1Mode INTEGER, ctTransOtherSnap1Val INTEGER, ctTransOtherSnap2Mode INTEGER, ctTransOtherSnap2Val INTEGER } ctTransOtherPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering control for subgroups of LLC frames by SAP or SNAP type." ::= { ctTransOtherEntry 1} ctTransOtherUnknownSap OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether any frames with an unrecognized SAP will require special translation handling by the processor. A recognized SAP will be specified by the user in one of the previous configuration groups. The default of this object is product specific." ::= { ctTransOtherEntry 2} ctTransOtherUnknownSnap OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether frames with an unrecognized SNAP will require special translation handling by the processor. A recognized SNAP will be specified by the user in one of the previous configuration groups. The default of this object is product specific." ::= { ctTransOtherEntry 3} ctTransOtherSapDsap1Mode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object enables(1) or disables (2) the special translation handling of a SAP frame with a DSAP equal to ctTransOtherSapDsap1Val. The default of this object is product specific." ::= { ctTransOtherEntry 4} ctTransOtherSapDsap1Val OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "This object allows the user to specify a DSAP value that when matched will require additional translation on frames." ::= { ctTransOtherEntry 5} ctTransOtherSapDsap2Mode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object enables(1) or disables (2) the special translation handling of a SAP frame with a DSAP equal to ctTransOtherSapDsap2Val. The default of this object is product specific." ::= { ctTransOtherEntry 6} ctTransOtherSapDsap2Val OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "This object allows the user to specify a DSAP value that when matched will require additional translation on frames." ::= { ctTransOtherEntry 7} ctTransOtherSapDsap3Mode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object enables(1) or disables (2) the special translation handling of a SAP frame with a DSAP equal to ctTransOtherSapDsap3Val. The default of this object is product specific." ::= { ctTransOtherEntry 8} ctTransOtherSapDsap3Val OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "This object allows the user to specify a DSAP value that when matched will require additional translation on frames." ::= { ctTransOtherEntry 9} ctTransOtherSnap1Mode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "When enabled (1) this object the value in ctTransOtherSnap1Val will be compared against the protocol values of all SNAP frames received on this interface. A match indicates that the current frame requires special translation handling. The default of this object is product specific." ::= { ctTransOtherEntry 10} ctTransOtherSnap1Val OBJECT-TYPE SYNTAX INTEGER (0..65535) ACCESS read-write STATUS mandatory DESCRIPTION "This object allows the user to specify a SNAP value to match against inbound SNAP frames for translation handling." ::= { ctTransOtherEntry 11} ctTransOtherSnap2Mode OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "When enabled (1) this object the value in ctTransOtherSnap2Val will be compared against the protocol values of all SNAP frames received on this interface. A match indicates that the current frame requires special translation handling. The default of this object is product specific." ::= { ctTransOtherEntry 12} ctTransOtherSnap2Val OBJECT-TYPE SYNTAX INTEGER (0..65535) ACCESS read-write STATUS mandatory DESCRIPTION "This object allows the user to specify a SNAP value to match against inbound SNAP frames for translation handling." ::= { ctTransOtherEntry 13} ctTransLfpsTable OBJECT-TYPE SYNTAX SEQUENCE OF CtTransLfpsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This table is for the user to configure the large frame ports ability to support large frames. The Large frame port support is done on a per port basis. The operation affects outbound frames only." ::= { ctTranslfpsCfg 1 } ctTransLfpsEntry OBJECT-TYPE SYNTAX CtTransLfpsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION " A list of objects that pertain to the large frame port support table." INDEX { ctTransLfpsPort } ::= { ctTransLfpsTable 1 } CtTransLfpsEntry ::= SEQUENCE { ctTransLfpsPort INTEGER, ctTransLfpsAdminStatus INTEGER, ctTransLfpsOperationalStatus INTEGER } ctTransLfpsPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The MIB-II interface number of the port for which this entry is administering control for subgroups of LLC frames by SAP or SNAP type." ::= { ctTransLfpsEntry 1} ctTransLfpsAdminStatus OBJECT-TYPE SYNTAX INTEGER { large(1), fragment-if-possible(2), small(3), auto(4) } ACCESS read-write STATUS mandatory DESCRIPTION "When large(1) is the setting all large frames are permissable out that port. fragment_if_possible(2) is used when the outport wants ip frames fragmented before transmission. All other non fragmentable large frames will be transmitted large. small(3) requires that no large frames be transmitted out this interface. If a frame can be fragmented then it can be transmitted out the interface. auto(4) is a special setting that will allow a device to negotiate which of the other three settings to use as the operational mode. The default of this object is product specific." ::= { ctTransLfpsEntry 2} ctTransLfpsOperationalStatus OBJECT-TYPE SYNTAX INTEGER { large(1), fragment-if-possible(2), small(3) } ACCESS read-only STATUS mandatory DESCRIPTION "This value represents the current operational mode of the interface. The operational mode should reflect what is set in the ctTransLfpsAdminStatus object. The only exception is when the user sellects a platform mode that is unsupported and if the ctTransLfpsAdminStatus object is set to auto. If the ctTransLfpsAdminStatus object is set to auto then the negotiated value will be reflected, which should be one of the above valid possibilities. The default of this object is product specific." ::= { ctTransLfpsEntry 3 } END